High power nanosecond pulse amplification at 2-microns in thulium-doped fiber pumped at 795nm
Identifieur interne : 000637 ( Pascal/Checkpoint ); précédent : 000636; suivant : 000638High power nanosecond pulse amplification at 2-microns in thulium-doped fiber pumped at 795nm
Auteurs : Daniel Creeden [États-Unis] ; Peter A. Budni ; Peter A. Ketteridge [États-Unis]Source :
- Proceedings of SPIE - The International Society for Optical Engineering [ 0277-786X ] ; 2008.
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- Pascal (Inist)
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Abstract
Rare earth-doped fibers allow for efficient pulse amplification at a variety of wavelengths. Eyesafe pulses are of interest for numerous applications, and traditionally, this has been achieved with Er- or Er:Yb-doped fibers operating at 1.5-microns. Thulium-doped fibers allow for eyesafe pulse amplification in the 2-micron spectral region. We have demonstrated high power nanosecond pulse amplification in a Tm-doped fiber pumped at 795nm. Under constant pump power, we have generated more than 30W of average output power at 100kHz and >18W of average power at 50kHz. With our fiber setup, we are able to produce high output power, pulse energy, and peak-power pulses over a range of repetition rates.
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<front><div type="abstract" xml:lang="en">Rare earth-doped fibers allow for efficient pulse amplification at a variety of wavelengths. Eyesafe pulses are of interest for numerous applications, and traditionally, this has been achieved with Er- or Er:Yb-doped fibers operating at 1.5-microns. Thulium-doped fibers allow for eyesafe pulse amplification in the 2-micron spectral region. We have demonstrated high power nanosecond pulse amplification in a Tm-doped fiber pumped at 795nm. Under constant pump power, we have generated more than 30W of average output power at 100kHz and >18W of average power at 50kHz. With our fiber setup, we are able to produce high output power, pulse energy, and peak-power pulses over a range of repetition rates.</div>
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